Co-existence DCA: dynamic channel allocations allowing underlaying autonomous microcells

1997 IEEE 47th Vehicular Technology Conference. Technology in Motion Pub Date : 1997-05-04 DOI:10.1109/VETEC.1997.605541

I. Chih-Lin, M. Haleem

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引用次数: 2

Abstract

To facilitate the coexistence of embedded autonomous indoor microcellular environments, a new form of dynamic channel assignment (DCA) algorithms for outdoor macrocellular systems is proposed in this paper. The co-existence of two systems without excessive mutual interference is achieved through a novel mechanism, i.e., intelligent exclusion of predefined subsets of the universal channel set from the dynamic assignment in the outdoor cells. Such channel exclusion results in a guaranteed number of channels available to the autonomous indoor systems anywhere they are; while incurring minimal DCA performance degradation in the macrocells. The resulting DCA algorithms are termed the co-existence DCA (CE-DCA) algorithms. We formulate the problem of CE-DCA in a rigorous manner and discuss the parameters involved in achieving optimum combined capacity of macro and micro cellular systems. Using the local packing dynamic channel assignment (LPDCA) algorithm as the base line DCA in the macrocellular system, we present both statistic and deterministic CE-DCA schemes, and compare their performances under various scenarios.

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共存DCA:允许底层自治微单元的动态信道分配

为了促进嵌入式自主室内微蜂窝环境的共存，本文提出了一种新的室外宏蜂窝系统动态信道分配(DCA)算法。通过一种新颖的机制，即在室外小区的动态分配中智能排除通用信道集的预定义子集，实现了两个系统的共存而没有过度的相互干扰。这种信道排除导致自动室内系统在任何地方都有一定数量的信道可用;同时在大细胞中引起最小的DCA性能下降。由此产生的DCA算法称为共存DCA (CE-DCA)算法。我们以严格的方式制定CE-DCA问题，并讨论了实现宏观和微细胞系统最佳组合容量所涉及的参数。采用局部分组动态信道分配(LPDCA)算法作为宏蜂窝系统中的基线信道分配算法，提出了统计型和确定性型两种CE-DCA方案，并比较了它们在不同场景下的性能。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

1997 IEEE 47th Vehicular Technology Conference. Technology in Motion

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